Evaporating and drying apparatus



May 4, 1948! J. w. MAGLAUGHLIN 2,440,778

' EVAPORATING AND. DRYING APPARATUS Filed May 25, 1945 8 Sheets-Sheet 1" I zit-L21: :1" I

III

INVENTOR Joseph C0? (9861-1906/14! N.

iTTORNEY y 4, 1948- J. w. MAGLAUGHLIN 2,440, 78

EVAPORATING AND DRYING APPARATUS Filed May 25, 1945 v s Sheets-Sheet 2 Y INVENTOR dos: PH ffl'flaazflua/unv MISATTORNEY y 1948 J. w. MAGLAUGHLIN 2,440,7

EVAPORATING AND DRYING APPARATUS Filed May 25, 1945 8 Sheets-Sheet 5 INVENTOR Jose/ CWTYQQGLauG/{AJM #LISATTORNEY 4, 1943- J. w. MAGLAUGHLIN 2,440,77

EVAPORATING AND DRYING APPARATUS Fil ed May 25, 1945 8 Sheds-Sheet 4 BYQ ATTORNEY May 4, 1948.

J, W. MAGLAUGHLIN EVAPORATING AND DRYING APPARATUS Filed May 25, 1945 a 8 Sheets-Sheet 5 INVENTOR JosEr-w c2)? NHGLHUGHLIN.

BYm 4 if MSATTORNEY y 1948. J. w. MAGLAUGHLIN 2,440,778

EVAPORATING AND DRYING APPARATUS lNV ENTOR JOSEPH C0. (ham/ah; IN.

BY 4 P0 IMISATTORNEY y 1948- J. w. MAGLAUGHLIN 2.440.778

EVAPORATING AND DRYING APPARATUS I Filed May 25, 1945 8 Sheets-Sheet '7 I M'SATTORNEY J. w. MAGLAUGHLIN EVAPORATING AND DRYING APPARATUS Filed May 25, 1945 8 Sheets-SheetB lNVENTOR JOSEPH msaAnuamczu.

BYZ"

ATI'ORNEY Patented May 4, 1948 UNITED STATES -PA TENT-joFFiCE 2,440,773 EVAPORATING ANDDRYING AP ARATUS Joseph W. Maglaughlin, Pittsburgh, Pa.

Application May 25, 1945, Serial No 595,747 g My invention relates to evaporating and drying apparatus and particularly to an apparatus and method of treating mixtures of liquids and solids for the purpose of eliminating all or a desired portion of the liquid and leaving dried or partially dried residue.

The apparatus and method are particularly useful in the evaporation and drying of the liquid content from the slops or residues of breweries or distilleries with the purpose of preparing from such residues uniformly consistent products for use as feed for domestic animals, or otherwise conveniently disposing of what is frequently considered a waste material that is a nuisance.

The apparatus can also be employed in the treatment of various other products of a liquidsolid nature, by evaporation, to concentrate or dry the solids, such as in the case of various fruit, fruit juices; to dry the wastes from meats and vegetables, including tomatoes; butters and jellies, etc. that are produced from fruits. It can also be used for evaporating wastes of strong organic content, from manufacturing establishments, in conforming to regulations that prohibit discharge of such waste liquids into natural water courses or sedimentation pools.

One object of my invention is to provide an apparatus and process of the character referred to wherein it is unnecesary to strain or filter the solids from the liquid mixture and wherein waste slops etc., such as thosefrom a brewery or distillery, can be handled directly as they are produced. 7

Another object of my invention is to provide apparatus which will be economical in the use of the heat required for treatment of the materials; which can continuously :be operated over longer periods of time than various other forms of apparatus, without shut-down for cleaning and adjustment; which can readily be controlled at all stages of operating in accordance with changes in materials by treating or the character of finished product desired, and whereby materials of various kinds which require accurate control of temperature, to avoid impairment of the final product, may be treated.

In the accompanying drawings which show a system or apparatus for practicing my invention, Figures la,1b show, partly in section,a rear end elevation of an evaporator and drier, a portion of evaporator partly in-f section and .with partsthe header at one end of an evaporator drum;

omitted, for clarity;,Fi g. 4a is a sectional view throughone of the drums of Fig. 4; Fig. 4b isan enlarged view of oneof'the conveyers of Fig. 1;

, Fig. 5 is aplan view ofthe drying unit of Fig. 1b; Fig. 6, is a side viewthereof partly in section;

Fig. 7 is an end view thereof Fig. 8 is an end View of the discharge chamber without its cover plate, for oneiof the evaporator drums of Fig. 1a; Fig. 9 is an enlarged longitudinal "sectional view, of

Fig. 10 is an end view, onan enlarged scale, of one of the coupling elements of the driving mechanismfor a screw conveyor and agitator of. an evaporator drum! Fig. 11 is a longitudinal sectional view thereof; Fig,v 12 is .an end view of one of the valvesfor controlling the discharge of materialifrom the, evaporator drums on an 'enlarged scale, and Fig.13is a sideview, thereof.

Referringfirst to the evaporator shown in Figs;

1a. to 4, an upper group of evaporator drums are the structure of Fig. 1a being duplicated on Fig.

numbered l4 and a lower group of similarly formed drums are numbered l5, each group being separately supplied with sludge or liquid mixture to be treated as hereinafter explained. An upper pair of tubes [6 and a lower pair of tubes I! are provided in each of the drums ,l 4l5. The upper tubes extend through the front end wall of thedruminto a head box l8 (Figs. 4 andQ) which receives the mixture to be treated through an inlet pipe [9, such mixture entering the tubes and being conveyed to the opposite ends thereof as hereinafter explained. Similarly the tubes l1 extend into the box I8 and are supplied with the sludge mixture through a pipe 2|. A partition plate 22 is provided in the box 18 so that. material can be supplied either to the upper pair of tubes or the lower pair of tubes, though usually the material will be supplied simultaneously both through pipes l9 and 2|. The drums l4l5 and the contained tubes are preferably, sloped or inclinedfupwardlyfrom their inlet endsrto their discharge ends attheir' transfer chambers 23 (Figs.'3. and 4) ,that have boiler inspection plugs 23a (Fig. 2) in their ends. By this arrangement, liquidcan be maintained in the lower portions of the tubes so that it will not flow into the discharge boxes or chambers at 23 during the evaporating process, only the solids ina somewhat wet condition being discharged. v

A screw typeconveyor 24 (Figs. 4 andl4b) with its shaft 25 (Fig. .11) is provided in each tube 16 -41, the conveyor shafts being driven by electric motors 26, only some of which are shown on P 55, 3, and 4. Each motor drives four shafts 29,

shafts. The coupling: member: 32. is w ofv slightlyless diameter.thanthetubes l6 sothatiwhenit-i's:

turned b-ackwardly for a partial revolution, to disconnect it from the member 3|, the shaft 25 and:

the member 32, together withthe conveyor screw,

can be withdrawn from the front-ends of-the tubes l6 and I! as hereinafter explained,

The sludge to be evaporated and dried is supplied to the header boxes l8 by a pump or-pumpss i one drum to other drums. Where different temperatures are required in certain drums than in other drums, the valves 41 will be kept closed, and the temperature and pressure in each drum will be regulated in accordance with the heating effect desired therein. It will be understood that if high pressures are employed with vapor of a 33 through pipes 35 and 36 (Figs. 3 and 4),;which can be cross-connected at 34 (Fig. 3) when only onepump 33 is needed. Thepipe 35 leads to the lower bank of'drums lwhile the pipe'flfideads to ,the,,.upper bankeof drums; M"; f The two-- lines BET-36; are provided so; that" in',installations" of great height, thestatic pressure-of the liquid-in the. upper evaporator pines willnot beimposedupon the liiquidiin the lower; pipes-.; 'The' pipe 3;6- has, branches .31 (Fig; 2) which have pipe connection with they inlets t9; and 2] to: the upper and; lower, chambers; respectively: of heade rs It: The pipe. 3.5ihas,similarbranches 38tliatlare' connected .to .thewheaderrboxes forjthe lower bank ofi thatubesr Asthe sludge. onliuui'disolid' mixture is pumped intoethesenboxes; I8, itf-will enter the 'tub'es" t6 andglllandjbepauslit bathe onv yor-s rews .24: Theescrewsg will advance the, solids toward; the discharge boxes. 2.3; .an'djto thisjflend have notches or serrations formed; in their. peripheries. (Fig, 411) so. that. they willlact somewhat. as' strainersand thereforelallowvthe more liquid portion of the mixtureito remain. near the lower. ends'of the tubes andflthus. avoid. carrying it into the: boxes 23.. The .-rate at which the mixtureis introduced into. therheader. boxes. '8; tlieip ltessure;atwhich the heatingmedium is; supplied; and consequently the; amount of heatsuphliedinto the drums will be. control ed-by.thermostats, or in some other suitable-manner so thatater, will 'not flow- QutpftheupperendS or.the.tubes;,, Usuallyonl a. somewhat. plastic.-mass' soixmaterial ofia thickenedconsistencyjt ill he dischargedfromhthe tubes into-theboxesfl;

Heat. issupplied Ito;.the.di:l1ms,;and;in surround= ing relation to the tubes, [6L and. IT'Qyin the form of, any suitable heating fluidisuchas, supereheated steami. Since. the. mixture. in. the .ti1bes l6; and l 1 is, largely liquid, aflmuchfl higher, evaporating temperaturelsuchas 2175*. F. .to 3603??) can be used than would'usually be permissible ina dry ing operation... I

r The super-heated steam or; other heating omediumis suppliedfromany suitable'source; through a pipeonpipes 4.1 and 4Z;(Figs.-;1a,.3Iandz4) i into the drums M and I5,-,'- nearthenpper ondischargfi end of :the c'onveyors.v In .the .case where steam is :used as the heating. medium ithwill, of .course. becomecondensedandwillfiow to thelowerends of the .drums,=from .whence the .cond'ensatewin drain off through pipesA3,.andJ41toa steam. trap 45. (Fig; 4 on, other, suitable. .disbosaleunit.

'Piped,.connectionsbetween the-Qdrumsmay be provided-at.- 4.6. having. valves. 41 (Fig. 4). I. Where all of S the: materials winthel v various etubfesare :to

given character, the heating effect will be greater thanwith'lowerpressures; Safety valves-48 (Figs. Handel) and pipe connections 50 (Figs.3 and 4) are provided for the drums to relieve dangerouslyghigh pressures or to relieve pressures that may tendto cause too great heating of the liquid mixture: Pressure gages 49 are also provided tosgivareadings of the pressures in the drums. v Where the drums are all interconnected as at and are always operated in that manner, one pressure gage and one relief valve will be suiiicient, but in other cases, pressure gages and relief valveswill be required for each drum or for each horizontal row-of'drums; V

Gageglasses 51 andi52 are connected to the inlet boxes l-B- at the upper and lower sides re speotively of thepartitions 22, to show the height of the liquid in the'tubes l6 and llso that the operator can see that a desired-amount of-liquid is jm-aintainedin' thetubes-and that none of the liquid-will flow-into the discharge boxes 23.

Iniordlerto'perrnit of removal of any ofthe shafts 25*andtheir 'conveyorscrews, the shaft bearingsat 54 (Figs; 3 and 4) will be removed and'thecover plate 55- Will loe disconnected from the header boxi8. Thereu-pona wrench will be appliedtothe square end- 25a of ashaftlifi (Fig. ll) and the shaft turnedslightly to disengage its coupling element 32 from the coupling element 31 The conveyon'together-with the coupling element"32', can be then withdrawn from its tube it.

The material from* which the major portion of "the-water has been evaporated will'be discharged, through'the boxes' 23*and past valves 60': (Figs; 1a, 4and;l2) and into conveyor corrduits' 6|." Screw conveyors in the conduits 5|". carry the material" toa conduit or stack 62 which islof somewhat-tapered form so that the material will not;1ikely-clogtherein, and has an inspection opening and cover plate 62a (Fig. 1b.). atiitslowerendf 'Thismateria-l'and material from the lowermost row ofboxes til falls into a may be left open and the heatingstcam W 1 14 horizontal conduit 63 throughwhich it'is forced by a conveyorscrewv63a""(Fig. 1a) to the drying apparatus of Figs; lb;5, 6and-7.

As, shownmore clearly in Fig.v 1a., the conveyors for movingjthe plastic. mass-through the conduits Stand" 63 are drivenby'a motor 6% through ,a gear reduction unit 65 andthe shaft 66 of the conveyor screw 63a. The shaft 66 through. a sprocket-chain drive at '6! drives the conveyorsorew inthe lowermost'conduit 6!; a sprocket chain drive. at 68 drives the screw in the nexticondu'it BI, and a.sprocket-chain drive at 69 drives the next higherconveyor screw.

A lower temperature is usually desired in the drying. unit'than in' the evaporating unit, ranging'from'about to 250 F. dependent upon the. nature ofth'e material being processed, as I find it convenientand economical to use the vapor, from the evaporator'tubes l 51' and H v as a. heatingmedi'um. for effecting the actual drying otith'e plastic. mass ofmaterial- It'will, however,: be understood that insome cases the mate-v rial fr'om which the 'maiorportion of thewater has beenfevaporatedfljcan be utilized or disposed offfsatisfactorily without. the necessity ofpassing it through a'dryin'g'unit:

interior of" these boxes and with pipes 12 that lead tothe header line 13. V a t t The valves 60" (Figs. 4, 12, 13) areclosed for most of the time so as to permit of substantially continuous suctional or vacuum force in the boxes 23 and a portion of the'tubes I6 and IT, to withdraw the vaporof evaporation.- There is one valve for each of the discharge boxes- 23 and each valve is periodicallyopened bya disc 14 having teeth 15 that successively engage apawl 16 that is connected to the valve stem 11' The gate or disc 18 of the valve (Fig. 12) is normally held closed by-a spring 'I9'that is interposed between ayokeBl that is carried bythe valve body and-a nut 82 so that when the disc I4 pullsthe valve open to a point at which one of its shoulders 15 moves out ofengagement withthe pawl 16, the valve willbe snappedto closed position. The innermost edge of the valve'disc I8 is beveled as shown in Fig. 13 togive some downward impulse to the material and to avoid cloggin by the material at the inner edge of thevalve disc. A small cushioningspring'83 is providedto prevent excessive impact when the valveis snapped closed bythe spring 19. l a

The valve-operatingdiscs 14 are secured to shafts 84 that are respectively mounted on brackets 85 which are secured'to upright frame member 89. Only the first ofthe valve-operating discs 14 is shown in Fig. 4, but it will be understoodthat each bracket and bearing 85 carries a'shaft 84, with a series of discs on each shaft. The shafts 84 are driven by sprocket chains such as 81, from the shafts that drive the conveyor screws in the conduits 6|,as indicated inFig. 3. If desired only one shaft 84 need be driven from one of the conveyor shaftsi"(as by a sprocket wheel 89, Fig. 1a), and the other shafts 84 driven therefrom by the use of additional sprocket wh'eels such as 88 (Fig. 3); after the manner in which the screw conveyors of the conduits 6| are driven inFig. 1a. it l Referring now toFigsJlb, 5,6, and 7, the mass of wet material is directed from'the conduit 63 through passageways 90 into drier drums 9| wherein it is advanced in the direction of the arrows (Fig. 6) by screw type conveyors and agitators in the drums 9| and 92, to hoppers 93, each pair of upper and'lower drums being connected by a header chamber 94 that has inspection openings at 95 and 95a, which may be glass covered, and a clean-out opening at 99. The upper and'lower conveyor vanes 91 have reverse angularity with respect to one another so as to move the material in a loopedpath as shownby the arrows in Fig. 6. Thevanes are ofirreg ular or broken contour so as to break up andagitate the material to release the moisture. l

During movementof thematerial through the dryingdrums, a suction pump" 98(Fig. 5]) is operated to create a vacuum force within a tank or chamber 99, the chamber 99 being connected to the drums 9| and 92 through pipes IIII and I92 (Fig. 11)) respectively. The removal of vapor from the material in the drier is thereby facilitated.

The shafts for the conveyor vanes 9'! are driven from a motor I03 through suitable gear reduction at I94 and by a sprocket chain I05 that passes around sprocket wheels I06 on the ends of these conveyor shafts. A clutch I8! is provided foreach shaft to throwits' conveyor into and out of operation.

The dried material which enters the hoppers 93 is periodically discharged past valves I08 into a hopper or hoppers I09 that in turn are provlded with valves H8. With the valves H0 closed, the valvesIIlB will be opened to permit movement of the materials from hoppers 93 to I09. The valves I08 will be closed when material is being discharged past the valves H0. This arrangement of valves I88-l I0 permits of maintaining vacuum or suction force as above explained in the drums 9| and 92. The valves IIl8-I II) can be manually operated as required or can be mechanically and periodically operated as are the valves 60 (Fig.4) at the discharge boxes of the evaporator.

The exhaust heating vapor from the evaporator drums I4-I5 (Fig. 1a) is drawn by a suction pump III (Fig. 5) through the lines 'II-'|2-'|3-|3a (Figla) and through pipes H2, H3, H4, H5 (Figs. lb and 6) and through the jacketed heating spaces H6 that extend around the drums 9| and 92 and into a vacuum chamber H8 that has connection through a line H9 with the suction pump I II. A valve cross connection is provided at |2I to afford communication between the jacketed spaces H6 to, in some cases, insure equalization of temperature in these two spaces.

Thedrums 9I-92 may be tilted somewhat so that condensate in the spaces H6 will drain toward the lower ends of the spaces where it will be drawn off through pipes I22.

Additional heating steam or vapor can be sup plied to the jacketed spaces H6, through a line I23, and pipes I24, to supplement or be used in lieu of the vapors drawn from the evaporator unit.

In orderto conserve heat and particularly to conserve the exhaust vapor from the evaporator boxes 23, the various drums I l-I5 and the vapor conductor pipes 15-12-13-I3a-II2, as Well as the jackets forthe drier drums {II-92, will be heat insulated. Also, all parts having engagement with the materials will be of corrosive-resistant metal. i i

Pipes I25 and I26 (Figs. 2, 3 and 4) are provided fordraining the boxes is and the tubes Iii-I1, as when the apparatus is to be closed down for cold weather'or repairs.

I claim as my invention:

1. Apparatus for treating mixtures of liquids and solids, comprising a tube mounted with one end at a higher plane than its other end, means for introducing the mixture into the lower end of the tube, meansfor "heating the tube to a vaporizing temperature, and means for continuously advancing the solid portion of the mixture through and out of the upper end of the tube at such rate that no liquid is discharged therewith, the saidmeanscomprisinga conveyor screw that closely fits within the tube but having a serrated edge that serves as a scraper and strainer. i

2. Apparatus for treating mixtures of liquids and solids, comprising an inclined drum of much greater length than diameter, a plurality of laterally-spaced tubes within the drum and extending longitudinally thereof, conveyor screws in the tubes, means on the screws, for straining the solids from the liquid, shafts for driving the screws and advancing the solids through the tubes from the lower ends thereof, a header box for continuously supplying the mixture to the lower ends; 'ofzthetubes, and; means. for-directing. ac: fluid -heatingr medium inter the .drumx and in.

completely enveloping relation-to-each tube V 3 Apparatus. for: treatingumixtures .of -liquids and solids; comprising an inclined: drum-v of much:

greater. length than" diameter,- a.-. plurality of. laterally-spaced tubes within the drum. aand ex mosphere;and/means for periodically removing;

accumulation of material from the discharge box;

4'; Apparatus :for treating mixtures' of liquids and. solids,- comprising a drum extending in a generally horizontald-irection a-- plurality oftubes extending longitudinally through the drum. and verticallyand laterally spaced from one another; a header -boxt chamber communicating with. the: upper tubes in-theudrum aheader box chamber communicatingwith the lowerftubes at one end -of the apparatus;meansfor'supplymg a-gm-ixture to theboxes, conveyor-screwsior advancing the mixture: through thetubes, a com-- mon receptacle into-which-the solid' material is discharged,-. and means for directing a fluid heati-ng medium.- into the I drum.- and in. completely enveloping relationttothe tubes.-

5.- -Apparatus for treating mixtures. of liquids and solids, comprising a battery of drums; a plurality of inclined tubes disposed within: each drunn a pump for supplying the mixtures, supply: pipes. for directing a heating fluid into the drums, a framework .for 'supporting the drums inunitaryf relation. conveyor screws and shafts therefor; within the tubes; for advancing mate ri-a1...therethrough,.- a header boxfor the tubes of each drum, at the lower end thereof, forde liveringthe mixturetothe tubes,- a-nd a removable-cover for the outer 'side'of the box, the conveyorrscrews and' theirsh'afts being removable from their respective drums; through their boxes when the covers are removed;

6. Apparatus for treating mixtures of liquids and solids; comprising a battery of drums, a framework for supporting the drums in unitary relation; a plurality of tubes'in'each of the drums andextending longitudinally beyond the ends of the-drums, pipes for supplying a heating medium to the drums, a pump for supplying'a mixture into the tubes at one end of the apparatus, conveyor screws in the tubes, a discharge box for the tubes ofeach drum, a conveyor conduit for the treated material, a. conveyor-in the conduit, means for maintaining the boxes and their associated tubes under subatmospheric pressure, valves for controllingicommunication between the boxesxindividuall-y and the-:conveyor-conduit, and means for opening,and--closing thecvalvest 7. Apparatus "for treating-"mixtures ot: liquids and; .so1ids,. comprising.- a battery of: drums ar i rangedzin .-vertically-.ands horizontal-lye spaeedwre lation; a framework for supporting; the-drums unitary relation, tubes inzthedrums-and:extend-' i-ng longitudinally-thereof, means forsupplying a mixture into. thetubes, at one..end-:of.- theuappa ratus, discharge. boxes! for. receivingetreated materialfrom :the: tubes,- at the-tether: end: of, I. the. apparatus, conveyor: screws in =the tubesg meansfor supplying, atfluid: :heating .medium into; the drums, a conveyor tube... andz' screw extending transversely. beneath each horizontal row- Of difir charge boxes: a stack for receiving- -material-. from the-.last-named conveyor tubes, a conduit at the lower. end of 1 the:- s-tack, -,for receiving"- the: treated-1 material, a conveyor in the: conduit, n-leans: for maintaining the discharge-boxes under subatmosphericipressure; valves-separately controllingzdis charge. from: the. discharge boxes te-the-zsecond named conveyor. tubes, and means operating timed relationship to-thesecend-n ame dconveyor screws, for opening and closing said valves-:individually-andzselectively; I 1 8-.--Apparatus for treating; mixtures. 01 liquids and solids; comprising abattery of drums; :that are relatively spaced-in vertica-l and horizon tal directions, a frameworkr'forsupportingatne drums; ,a pluralitygof -tu-bes disposed-within: each of the drumsand extending-longitudinally? there? of, screwconveyors. inthetubes;meansiorisup plying a lmixtureito: the tubes at oneend. of the apparatus, discharge receptaoles forther solids at the other end of the apparatus; pipes for""supply-i ing. a heating-fluid to thesdl'ums motors carried by the; .framework;.-at 0ne:-endof the; apparatus," having-shafts for'd-riving themonveyor shaft'sjjree movable:'bearingafonthei conveyor shat-ts at' tlre other end' of the apparatus,-.a headerbox 'atssai'd other s end -ofthe. apparatus communicatingi with the: tubes ofieach .drum,; a removable Fcbver plate forzthezoutersidei'of each header box, and-hide tachable connection betweerr' each conveyor-shaft and its. associated motor sh-aft -locatecl Withir'rl'bhe discharge receptacles, the conveyor shafts-and their screws: being removable :front :the='- conduits upon removal :of the cover' plates arrdsther bear:- mgs.

, nnrnnnncnsg'orrnn r The following references 1 fi'16"0f this patent UNI'I'ED'STA'IjESPATENTS. 

